基于GaSb/CdS薄膜热光伏电池的器件设计  

作　　者：吴限量[1] 张德贤[1] 蔡宏琨[1] 周严[2] 倪牮[3,4] 张建军[3,4] 

机构地区：[1]南开大学电子信息与光学工程学院电子科学与工程系,天津300071 [2]天津商业大学理学院,天津300134 [3]南开大学电子信息与光学工程学院光电子薄膜器件与技术研究所,天津300071 [4]天津市光电子薄膜器件与技术重点实验室,天津300071

出　　处：《物理学报》2015年第9期429-436,共8页Acta Physica Sinica

基　　金：国家高技术研究发展计划(863计划)(批准号:2011AA050513);教育部留学回国人员科研启动基金;天津市教委项目(批准号:20100314)资助的课题~~

摘　　要：基于Ga Sb薄膜热光伏器件是降低热光伏系统成本的有效途径之一,本文主要针对Ga Sb/Cd S薄膜热光伏器件结构进行理论分析.采用AFORS-HET软件进行模拟仿真,分析Ga Sb和Cd S两种材料各自的缺陷态密度、界面态对电池性能的影响.根据软件模拟可以得知,吸收层Ga Sb的缺陷态密度以及Ga Sb与Cd S之间的界面态密度是影响电池性能的重要因素.当Ga Sb缺陷态增加时,主要影响电池的填充因子,电池效率明显下降.而作为窗口层的Cd S缺陷态密度对电池性能影响不明显,当Cd S缺陷态密度上升4个数量级时,电池效率仅下降0.11%.Enthusiasm in the research of thermo-photovoltaic （TPV） cells has been aroused because the low bandwidth semi- conductors of III-V family are coming into use. GaSb, as a member of III-V family, has many merits such as high absorption coefficient, and low band gap of 0.725 eV at 300 K etc.. At present thermo-photovoltaic cells are usually based on GaSb wafer, and it can be manufactured by the vertical Bridgeman method. Thermo-photovoltaic cell based on GaSb films is one of the effective ways to reduce the cost of the thermo-photovoltaic system. GaSb polycrystalline films can be grown by physical vapor deposition （PVD） which has advantages in using fewer materials and energy, and also in doing little harm to the environment. Because of residual acceptor defects VGaGasb, GaSb thin film is usually of p-type semiconductor. So we should find n-type semiconductor material to form pn junction. We choose CdS as the emission layer of a cell structure. CdS belongs to n-type semiconductor with a narrow band gap of 2.4 eV and high light transmissivity. CdS thin film grown by chemical bath deposition （CBD） has passivation properties for GaSb. CdS layers can remove native oxides from GaSh surface and reduce the surface recombination velocity of GaSb. This paper focuses on theoretical analysis of GaSb/CdS thin film photovoltaic structure. By way of AFORS-HET simulation, we analyze the defect state density and interface density in GaSb and CdS, and their effects on cell performance. According to the simulation, the defect density in GaSb absorption layer is the very important factors that affect cell performance. When GaSb defect increases, the major factor to affect the cell is the fill factor that leads to low efficiency. On condition that there exists high GaSb defect density, the thickness of GaSb should be kept at 1000 nm. GaSb with a thickness above 1000 nm can bring about a high recombination rate, which reduces the efficiency of the cell. As an emission layer, the defect density in CdS should not affect the ce

关 键 词：锑化镓 硫化镉 热光伏 

分 类 号：TM914.4[电气工程—电力电子与电力传动]